Kernelizing the Hitting Set Problem in Linear Sequential and Constant Parallel Time.

Max Bannach, Malte Skambath, Till Tantau

Abstract

We analyze a reduction rule for computing kernels for the hitting set problem: In a hypergraph, the link of a set c of vertices consists of all edges that are supersets of c. We call such a set critical if its link has certain easy-to-check size properties. The rule states that the link of a critical c can be replaced by c. It is known that a simple linear-time algorithm for computing hitting set kernels (number of edges) at most k^d (k is the hitting set size, d is the maximum edge size) can be derived from this rule. We parallelize this algorithm and obtain the first AC⁰ kernel algorithm that outputs polynomial-size kernels. Previously, such algorithms were not even known for artificial problems. An interesting application of our methods lies in traditional, non-parameterized approximation theory: Our results imply that uniform AC⁰-circuits can compute a hitting set whose size is polynomial in the size of an optimal hitting set.
OriginalspracheEnglisch
Seiten9:1-9:16
DOIs
PublikationsstatusVeröffentlicht - 2020
Veranstaltung17th Scandinavian Symposium and Workshops on Algorithm Theory - University of the Faroe Islands, online session, Färöer-Inseln
Dauer: 12.06.202012.06.2020
https://www.setur.fo/en/education/swat-2020/

Tagung, Konferenz, Kongress

Tagung, Konferenz, Kongress17th Scandinavian Symposium and Workshops on Algorithm Theory
KurztitelSWAT 2020
Land/GebietFäröer-Inseln
Ortonline session
Zeitraum12.06.2012.06.20
Internetadresse

DFG-Fachsystematik

  • 409-01 Theoretische Informatik

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